oaordex

Description: Existence theorem for ordering of ordinal sum. Similar to Proposition 4.34(f) of Mendelson p. 266 and its converse. (Contributed by NM, 12-Dec-2004)

		Ref	Expression
	Assertion	oaordex	$⊢ (A \in On \land B \in On) \to (A \in B \leftrightarrow \exists x \in On (\emptyset \in x \land A +_{𝑜} x = B))$

Proof

Step	Hyp	Ref	Expression
1		onelss	$⊢ B \in On \to (A \in B \to A \subseteq B)$
2	1	adantl	$⊢ (A \in On \land B \in On) \to (A \in B \to A \subseteq B)$
3		oawordex	$⊢ (A \in On \land B \in On) \to (A \subseteq B \leftrightarrow \exists x \in On A +_{𝑜} x = B)$
4	2 3	sylibd	$⊢ (A \in On \land B \in On) \to (A \in B \to \exists x \in On A +_{𝑜} x = B)$
5		oaord1	$⊢ (A \in On \land x \in On) \to (\emptyset \in x \leftrightarrow A \in (A +_{𝑜} x))$
6		eleq2	$⊢ A +_{𝑜} x = B \to (A \in (A +_{𝑜} x) \leftrightarrow A \in B)$
7	5 6	sylan9bb	$⊢ ((A \in On \land x \in On) \land A +_{𝑜} x = B) \to (\emptyset \in x \leftrightarrow A \in B)$
8	7	biimprcd	$⊢ A \in B \to (((A \in On \land x \in On) \land A +_{𝑜} x = B) \to \emptyset \in x)$
9	8	exp4c	$⊢ A \in B \to (A \in On \to (x \in On \to (A +_{𝑜} x = B \to \emptyset \in x)))$
10	9	com12	$⊢ A \in On \to (A \in B \to (x \in On \to (A +_{𝑜} x = B \to \emptyset \in x)))$
11	10	imp4b	$⊢ (A \in On \land A \in B) \to ((x \in On \land A +_{𝑜} x = B) \to \emptyset \in x)$
12		simpr	$⊢ (x \in On \land A +_{𝑜} x = B) \to A +_{𝑜} x = B$
13	11 12	jca2	$⊢ (A \in On \land A \in B) \to ((x \in On \land A +_{𝑜} x = B) \to (\emptyset \in x \land A +_{𝑜} x = B))$
14	13	expd	$⊢ (A \in On \land A \in B) \to (x \in On \to (A +_{𝑜} x = B \to (\emptyset \in x \land A +_{𝑜} x = B)))$
15	14	reximdvai	$⊢ (A \in On \land A \in B) \to (\exists x \in On A +_{𝑜} x = B \to \exists x \in On (\emptyset \in x \land A +_{𝑜} x = B))$
16	15	ex	$⊢ A \in On \to (A \in B \to (\exists x \in On A +_{𝑜} x = B \to \exists x \in On (\emptyset \in x \land A +_{𝑜} x = B)))$
17	16	adantr	$⊢ (A \in On \land B \in On) \to (A \in B \to (\exists x \in On A +_{𝑜} x = B \to \exists x \in On (\emptyset \in x \land A +_{𝑜} x = B)))$
18	4 17	mpdd	$⊢ (A \in On \land B \in On) \to (A \in B \to \exists x \in On (\emptyset \in x \land A +_{𝑜} x = B))$
19	7	biimpd	$⊢ ((A \in On \land x \in On) \land A +_{𝑜} x = B) \to (\emptyset \in x \to A \in B)$
20	19	exp31	$⊢ A \in On \to (x \in On \to (A +_{𝑜} x = B \to (\emptyset \in x \to A \in B)))$
21	20	com34	$⊢ A \in On \to (x \in On \to (\emptyset \in x \to (A +_{𝑜} x = B \to A \in B)))$
22	21	imp4a	$⊢ A \in On \to (x \in On \to ((\emptyset \in x \land A +_{𝑜} x = B) \to A \in B))$
23	22	rexlimdv	$⊢ A \in On \to (\exists x \in On (\emptyset \in x \land A +_{𝑜} x = B) \to A \in B)$
24	23	adantr	$⊢ (A \in On \land B \in On) \to (\exists x \in On (\emptyset \in x \land A +_{𝑜} x = B) \to A \in B)$
25	18 24	impbid	$⊢ (A \in On \land B \in On) \to (A \in B \leftrightarrow \exists x \in On (\emptyset \in x \land A +_{𝑜} x = B))$

Metamath Proof Explorer

Theorem oaordex

Proof